/* * Copyright (C) 2004-2013 L2J Server * * This file is part of L2J Server. * * L2J Server is free software: you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation, either version 3 of the License, or * (at your option) any later version. * * L2J Server is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program. If not, see . */ package com.l2jserver.gameserver.datatables; import java.util.ArrayList; import java.util.Collection; import java.util.HashMap; import java.util.HashSet; import java.util.List; import java.util.Map; import java.util.Set; import org.w3c.dom.NamedNodeMap; import org.w3c.dom.Node; import com.l2jserver.gameserver.engines.DocumentParser; import com.l2jserver.gameserver.idfactory.IdFactory; import com.l2jserver.gameserver.instancemanager.InstanceManager; import com.l2jserver.gameserver.instancemanager.MapRegionManager; import com.l2jserver.gameserver.model.StatsSet; import com.l2jserver.gameserver.model.actor.instance.L2DoorInstance; import com.l2jserver.gameserver.model.actor.templates.L2DoorTemplate; import com.l2jserver.gameserver.pathfinding.AbstractNodeLoc; /** * @author JIV, GodKratos, UnAfraid */ public class DoorTable extends DocumentParser { private static final Map> _groups = new HashMap<>(); private final Map _doors = new HashMap<>(); private final Map _templates = new HashMap<>(); private final Map> _regions = new HashMap<>(); protected DoorTable() { load(); } @Override public void load() { _doors.clear(); _groups.clear(); _regions.clear(); parseDatapackFile("data/doors.xml"); } @Override protected void parseDocument() { NamedNodeMap attrs; Node att; StatsSet set; for (Node a = getCurrentDocument().getFirstChild(); a != null; a = a.getNextSibling()) { if ("list".equalsIgnoreCase(a.getNodeName())) { for (Node b = a.getFirstChild(); b != null; b = b.getNextSibling()) { if ("door".equalsIgnoreCase(b.getNodeName())) { attrs = b.getAttributes(); set = new StatsSet(); set.set("baseHpMax", 1); // Avoid doors without HP value created dead due to default value 0 in L2CharTemplate for (int i = 0; i < attrs.getLength(); i++) { att = attrs.item(i); set.set(att.getNodeName(), att.getNodeValue()); } makeDoor(set); _templates.put(set.getInteger("id"), set); } } } } _log.info(getClass().getSimpleName() + ": Loaded " + _doors.size() + " Door Templates for " + _regions.size() + " regions."); } public void insertCollisionData(StatsSet set) { int posX, posY, nodeX, nodeY, height; height = set.getInteger("height"); String[] pos = set.getString("node1").split(","); nodeX = Integer.parseInt(pos[0]); nodeY = Integer.parseInt(pos[1]); pos = set.getString("node2").split(","); posX = Integer.parseInt(pos[0]); posY = Integer.parseInt(pos[1]); int collisionRadius; // (max) radius for movement checks collisionRadius = Math.min(Math.abs(nodeX - posX), Math.abs(nodeY - posY)); if (collisionRadius < 20) { collisionRadius = 20; } set.set("collision_radius", collisionRadius); set.set("collision_height", height); } /** * @param set */ private void makeDoor(StatsSet set) { insertCollisionData(set); L2DoorTemplate template = new L2DoorTemplate(set); L2DoorInstance door = new L2DoorInstance(IdFactory.getInstance().getNextId(), template); door.setCurrentHp(door.getMaxHp()); door.spawnMe(template.getX(), template.getY(), template.getZ()); putDoor(door, MapRegionManager.getInstance().getMapRegionLocId(door)); } public StatsSet getDoorTemplate(int doorId) { return _templates.get(doorId); } public L2DoorInstance getDoor(int doorId) { return _doors.get(doorId); } public void putDoor(L2DoorInstance door, int region) { _doors.put(door.getDoorId(), door); if (!_regions.containsKey(region)) { _regions.put(region, new ArrayList()); } _regions.get(region).add(door); } public static void addDoorGroup(String groupName, int doorId) { Set set = _groups.get(groupName); if (set == null) { set = new HashSet<>(); _groups.put(groupName, set); } set.add(doorId); } public static Set getDoorsByGroup(String groupName) { return _groups.get(groupName); } public Collection getDoors() { return _doors.values(); } public boolean checkIfDoorsBetween(AbstractNodeLoc start, AbstractNodeLoc end, int instanceId) { return checkIfDoorsBetween(start.getX(), start.getY(), start.getZ(), end.getX(), end.getY(), end.getZ(), instanceId); } public boolean checkIfDoorsBetween(int x, int y, int z, int tx, int ty, int tz, int instanceId) { return checkIfDoorsBetween(x, y, z, tx, ty, tz, instanceId, false); } /** * GodKratos: TODO: remove GeoData checks from door table and convert door nodes to Geo zones * @param x * @param y * @param z * @param tx * @param ty * @param tz * @param instanceId * @param doubleFaceCheck * @return {@code boolean} */ public boolean checkIfDoorsBetween(int x, int y, int z, int tx, int ty, int tz, int instanceId, boolean doubleFaceCheck) { Collection allDoors; if ((instanceId > 0) && (InstanceManager.getInstance().getInstance(instanceId) != null)) { allDoors = InstanceManager.getInstance().getInstance(instanceId).getDoors(); } else { allDoors = _regions.get(MapRegionManager.getInstance().getMapRegionLocId(x, y)); } if (allDoors == null) { return false; } for (L2DoorInstance doorInst : allDoors) { // check dead and open if (doorInst.isDead() || doorInst.getOpen() || !doorInst.checkCollision() || (doorInst.getX(0) == 0)) { continue; } boolean intersectFace = false; for (int i = 0; i < 4; i++) { int j = (i + 1) < 4 ? i + 1 : 0; // lower part of the multiplier fraction, if it is 0 we avoid an error and also know that the lines are parallel int denominator = ((ty - y) * (doorInst.getX(i) - doorInst.getX(j))) - ((tx - x) * (doorInst.getY(i) - doorInst.getY(j))); if (denominator == 0) { continue; } // multipliers to the equations of the lines. If they are lower than 0 or bigger than 1, we know that segments don't intersect float multiplier1 = (float) (((doorInst.getX(j) - doorInst.getX(i)) * (y - doorInst.getY(i))) - ((doorInst.getY(j) - doorInst.getY(i)) * (x - doorInst.getX(i)))) / denominator; float multiplier2 = (float) (((tx - x) * (y - doorInst.getY(i))) - ((ty - y) * (x - doorInst.getX(i)))) / denominator; if ((multiplier1 >= 0) && (multiplier1 <= 1) && (multiplier2 >= 0) && (multiplier2 <= 1)) { int intersectZ = Math.round(z + (multiplier1 * (tz - z))); // now checking if the resulting point is between door's min and max z if ((intersectZ > doorInst.getZMin()) && (intersectZ < doorInst.getZMax())) { if (!doubleFaceCheck || intersectFace) { return true; } intersectFace = true; } } } } return false; } public static DoorTable getInstance() { return SingletonHolder._instance; } private static class SingletonHolder { protected static final DoorTable _instance = new DoorTable(); } }